[1] | Large center vortices and confinement in 3-D Z(2) gauge theory. By F. Gliozzi, M. Panero, P. Provero. Phys.Rev. D66 (2002) 017501. |
[2] | Center vortices, magnetic condensate and confinement in a simple gauge system. By F. Gliozzi, M. Panero, P. Provero. |
[3] | String effects in Polyakov loop correlators. By M. Caselle, M. Panero, P. Provero. JHEP 0206 (2002) 061. |
[4] | String effects in Polyakov loop correlators. By M. Caselle, M. Panero, P. Provero, M. Hasenbusch. Nucl.Phys.Proc.Suppl. 119 (2003) 499-501. |
[5] | Percolating cluster of center vortices and confinement. By Ferdinando Gliozzi, Marco Panero, Paolo Provero. Nucl.Phys.Proc.Suppl. 119 (2003) 760-762. |
[6] | String effects in the 3-d gauge Ising model. By M. Caselle, M. Hasenbusch, M. Panero. JHEP 0301 (2003) 057. |
[7] | Confinement-deconfinement and universal string effects from random percolation. By Ferdinando Gliozzi, Marco Panero, Antonio Rago. Nucl.Phys.Proc.Suppl. 129 (2004) 736-738. |
[8] | Effective string picture for confinement at finite temperature: Theoretical predictions and high precision numerical results. By Michele Caselle, Martin Hasenbusch, Marco Panero. Nucl.Phys.Proc.Suppl. 129 (2004) 593-595. |
[9] | Effective string picture for confining gauge theories at finite temperature. By Michele Caselle, Marco Panero, Martin Hasenbusch. |
[10] | Short distance behavior of the effective string.By M. Caselle, M. Hasenbusch, M. Panero. JHEP 0405 (2004) 032. |
[11] | A Numerical study of a confined Q anti-Q system in compact U(1) lattice gauge theory in 4D. By Marco Panero. Nucl.Phys.Proc.Suppl. 140 (2005) 665-667. |
[12] | Comparing the Nambu-Goto string with LGT results. By Michele Caselle, Martin Hasenbusch, Marco Panero. JHEP 0503 (2005) 026. |
[13] | Random percolation as a gauge theory. By F. Gliozzi, S. Lottini, M. Panero, A. Rago. Nucl.Phys. B719 (2005) 255-274. |
[14] | A Numerical study of confinement in compact QED. By Marco Panero. JHEP 0505 (2005) 066. |
[15] | Studying glueball masses in non-Abelian LGT with the LW algorithm. By Marco Panero. PoS LAT2005 (2006) 294. |
[16] | On the effective string spectrum of the tridimensional Z(2) gauge model. By Michele Caselle, Martin Hasenbusch, Marco Panero. JHEP 0601 (2006) 076. |
[17] | QCD string from D0 branes. By M. Billo, M. Caselle, M. Hasenbusch, M. Panero. PoS LAT2005 (2006) 309. |
[18] | High precision Monte Carlo simulations of interfaces in the three-dimensional ising model: A Comparison with the Nambu-Goto effective string model. By Michele Caselle, Martin Hasenbusch, Marco Panero. JHEP 0603 (2006) 084. |
[19] | Nonlocal regularisation of noncommutative field theories. By T.R. Govindarajan, Seckin Kurkcuoglu, Marco Panero. Mod.Phys.Lett. A21 (2006) 1851-1863. |
[20] | Numerical simulations of a non-commutative theory: The Scalar model on the fuzzy sphere. By Marco Panero. JHEP 0705 (2007) 082. |
[21] | Quantum field theory in a non-commutative space: Theoretical predictions and numerical results on the fuzzy sphere. By Marco Panero. SIGMA 2 (2006) 081. |
[22] | The Interface free energy: Comparison of accurate Monte Carlo results for the 3D Ising model with effective interface models. By Michele Caselle, Martin Hasenbusch, Marco Panero. JHEP 0709 (2007) 117. |
[23] | Effective string theory description of the interface free energy. By Marco Billo, Michele Caselle, Livia Ferro, Martin Hasenbusch, Marco Panero. PoS LAT2007 (2007) 294. |
[24] | Polyakov loops and SU(2) staggered Dirac spectra. By Falk Bruckmann, Stefan Keppeler, Marco Panero, Tilo Wettig. PoS LAT2007 (2007) 274. |
[25] | Polyakov loops and spectral properties of the staggered Dirac operator. By Falk Bruckmann, Stefan Keppeler, Marco Panero, Tilo Wettig. Phys.Rev. D78 (2008) 034503. |
[26] | Geometric effects in lattice QCD thermodynamics. By Marco Panero. PoS LATTICE2008 (2008) 175. |
[27] | Fluctuations of the baryonic flux-tube junction from effective string theory. By Melanie Pfeuffer, Gunnar S. Bali, Marco Panero. Phys.Rev. D79 (2009) 025022. |
[28] | Matrix elements of heavy-light mesons from a fine lattice. By A. Ali Khan, A. Al-Haydari, V. Braun, S. Collins, M. Gockeler, G.N. Lacagnina, M. Panero, A.Schafer et al. PoS CONFINEMENT8 (2008) 167. |
[29] | Semileptonic form factors D---> pi, K and B---> pi, K from a fine lattice. By QCDSF Collaboration (A. Al-Haydari et al.). Eur.Phys.J. A43 (2010) 107-120. |
[30] | Thermodynamics of the QCD plasma and the large-N limit. By Marco Panero. Phys.Rev.Lett. 103 (2009) 232001. |
[31] | Dimensional reduction and the phase diagram of 5d Yang-Mills theory. By A. Kurkela, Ph. de Forcrand, M. Panero. PoS LAT2009 (2009) 050. |
[32] | Thermodynamics of the strongly interacting gluon plasma in the large-N limit. By Marco Panero. PoS LAT2009 (2009) 172. |
[33] | The phase diagram of Yang-Mills theory with a compact extra dimension. By Philippe de Forcrand, Aleksi Kurkela, Marco Panero. JHEP 1006 (2010) 050. |
[34] | Universal signatures of the effective string in finite temperature lattice gauge theories. By Michele Caselle, Alessandra Feo, Marco Panero, Roberto Pellegrini. JHEP 1104 (2011) 020. |
[35] | Numerical properties of staggered overlap fermions. By Philippe de Forcrand, Aleksi Kurkela, Marco Panero. PoS LATTICE2010 (2010) 080. |
[36] | Thermodynamics of SU(N) Yang-Mills theories in 2+1 dimensions I-The confining phase. By Michele Caselle, Luca Castagnini, Alessandra Feo, Ferdinando Gliozzi, Marco Panero. JHEP 1106 (2011) 142. |